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Main Authors: Birkbeck, John, Sobey, Adam, Cerutti, Federico, Flynn, Katherine Heseltine Hurley, Norman, Timothy J.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.03577
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author Birkbeck, John
Sobey, Adam
Cerutti, Federico
Flynn, Katherine Heseltine Hurley
Norman, Timothy J.
author_facet Birkbeck, John
Sobey, Adam
Cerutti, Federico
Flynn, Katherine Heseltine Hurley
Norman, Timothy J.
contents Reinforcement learning (RL) agents are costly to train and fragile to environmental changes. They often perform poorly when there are many changing tasks, prohibiting their widespread deployment in the real world. Many Lifelong RL agent designs have been proposed to mitigate issues such as catastrophic forgetting or demonstrate positive characteristics like forward transfer when change occurs. However, no prior work has established whether the impact on agent performance can be predicted from the change itself. Understanding this relationship will help agents proactively mitigate a change's impact for improved learning performance. We propose Change-Induced Regret Proxy (CHIRP) metrics to link change to agent performance drops and use two environments to demonstrate a CHIRP's utility in lifelong learning. A simple CHIRP-based agent achieved $48\%$ higher performance than the next best method in one benchmark and attained the best success rates in 8 of 10 tasks in a second benchmark which proved difficult for existing lifelong RL agents.
format Preprint
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institution arXiv
publishDate 2024
record_format arxiv
spellingShingle CHIRPs: Change-Induced Regret Proxy metrics for Lifelong Reinforcement Learning
Birkbeck, John
Sobey, Adam
Cerutti, Federico
Flynn, Katherine Heseltine Hurley
Norman, Timothy J.
Machine Learning
Reinforcement learning (RL) agents are costly to train and fragile to environmental changes. They often perform poorly when there are many changing tasks, prohibiting their widespread deployment in the real world. Many Lifelong RL agent designs have been proposed to mitigate issues such as catastrophic forgetting or demonstrate positive characteristics like forward transfer when change occurs. However, no prior work has established whether the impact on agent performance can be predicted from the change itself. Understanding this relationship will help agents proactively mitigate a change's impact for improved learning performance. We propose Change-Induced Regret Proxy (CHIRP) metrics to link change to agent performance drops and use two environments to demonstrate a CHIRP's utility in lifelong learning. A simple CHIRP-based agent achieved $48\%$ higher performance than the next best method in one benchmark and attained the best success rates in 8 of 10 tasks in a second benchmark which proved difficult for existing lifelong RL agents.
title CHIRPs: Change-Induced Regret Proxy metrics for Lifelong Reinforcement Learning
topic Machine Learning
url https://arxiv.org/abs/2409.03577